Method and means for molding artificial teeth



July 28, 1925.

' G. W. CLAPP METHOD AND MEANS FOR MOLDING ARTIFICIAL TEETH Original Filed Nov. 16, 1923 2 Sheets-Sheet 1 F/GJ July 28, 1925. 7 1,547,643

G. W. CLAPP METHOD AND MEANS FOR MOLDING ARTIFICIAL TEETH Original Filed Nov. 16, 1923 2 Sheets-Sheet 2 in van fo r G'eorge W000 U/app.

Patented July 28, 1925.

GEORGE WOOD GLAPIP, OF NEW ROCHELLE, NEW YOfiK,

A'SSIGNORTO THE DENTISTS SUPPLY COMPANY, A CORPORATION OF NEW YORK.

METHOD AND MEANS FOR MOLDING ARTIFICIAL TEETH.

Applicationfiled November 16, 1923-, Serial No. 675,050. Renewed June 12, 1925.

To all whom it may concern:

Be it known that I, Gnonen WOOD CLAPP, a citizen of the United States, and resident of New Rochelle, county of Westchester, and State of New York, have invented an Improvement in Methods and Means forflMolding Artificial Teeth, of which the following is a specification.

The object of my invention is to provide a method and means for accurately proportioning and positioning the bisque or porcelain producing materials entering into the make-up of artificial teeth, whereby the shade or coloring of the tooth structure, and especially at the labial or buccal portions thereof, will have a more natural appearance and a uniformity of reproduction; and further, insuring that the shading or coloring will always be the same in teeth made with the same molds.

Heretofore, it has been customary, in

molding the porcelain material for the mak-- ing ofartificial teeth, to employ a two-part mold, one part having a recess correspond-- ing to the labial or buccal portion of the tooth and the other having a recess corresponding to the lingual portion thereof, in the formerof which the porcelain producing materials for molding the enamel at the incisal and labial (or buccal) portions of the tooth were inserted by hand operationin a more or less irregular manner and proportion, and in the latter of which mold parts the body or backing material (usually darker) fronnwhich the back or lingual portion and, in some cases, the upper part of the labial or buccal portions of the tooth are composed, were similarly inserted by hand operation; the mold parts, when thus loaded, being pressed together to bring the enamel and body porcelain materials into .association and contact to jointly-"fill the entire tooth space to complete the moldin of the tooth preliminary to its being bisculted and finally vitrified into porcelain. In operations of this kind, where the judgment of the worker is required to-come into playto.

insure the proportions and relative positions of the enamel and body materials, it is manifest that'a great irregularity will necessarily occur,-and-thereby produce teeth varying in the shade or color effect on the labial (or the buccal) surfaces. This not only requires special sorting of the finished teeth'to provide approximately uniform classification,

certainty right shade or color.

but many of the teeth are not consistent with the definite shade guides in use and, therefore, are considered as defective in that respect. By the employment of the improvements embodied in my invention, this unand irregularity in the coloring or shading of the teeth may be entirely overcome; and all of the teeth made in a mold embodying my invention are accuratelv duplicated as to structure and shade or color by merely insuring that the porcelain materials employed are such as'to produce the Furthermore, the dentist is enabled to insure a more accurate shading and color to the denture to suit the requirements of the patient and may secure this result with a minimum stock of teeth.

The improved method practiced in carrying out my invention comprises the following steps: Assuming that a two-part mold of the ordinary character is to be employed as the main molding apparatus for producing the final configuration of the tooth structure, there is also provided a third mold part whichis specially constructed tofit more or less into-or in association with the recess of one of the parts of the two-part 'mold, said third mold part being of-such'shape that its molding surface gradually approaches, from one end to the other, the general molding surface of the mold recess of the aforesaid two-part mold portion, forming a mold space less than the tooth space provided by the two-part mold, whereby there is molded a portion only of the tooth, the excess of the body material in plastic condition being squeezed out and that which remainsbeing compressed into the proper shape for the body and cervical end of the tooth; and thereafter, with or without drying of the molded material, removing the third mold part. and completing "the moldin of the tooth by placing in the other mol part of the two-part mold the balance of the porce lain material having the requisite shade or color necessary for completing the molding of the tooth with the two-part mold.

My invention, as herein defined, may be further characterized by so forming the third mold part that it may cooperate with either the lingual recess of one mold part or the labial or buccal recess of the other mold part in the preliminary molding operation, as may be desired, but I prefer that the third mold part shall be shaped to cooperate with the mold part of the two-part mold which molds the lingual portion of the molded tooth.

In that practice of my invention, wherein, the third mold part is adapted to mold the lingual or body portion in the preliminary molding step, said mold part has a. molding recess of less depth than that of the corresponding portion of the two-part mold and also has a portion adjacent the incisal end E which extends outward beyond the junction i plane or line of contact of the normal two- 1 lpart mold portions and so that the molding urface of this third mold part, in assembled elation with the mold part having the lini ual recess, gradually approaches the general s1 rface of said recess whereby, when the sai gl third mold part is substituted by the sec nd part of the two-part mold, there will be \provided a space between the metal of the mold and the molded porcelain material, which space is of gradual increasing width in a lingual-labial direction from the cervical end to the incisal end; and after the utiliz tion of said third mold part, it is substitute b the normal second mold part and theniol ing therewith of the porcelain material which is to constitute the enamel, from the' i cisal end toward the cervical end, 30 all of who is preliminary to final vitrifying hot the moltled br bi ue tooth. As a modification of my invent on, the third mold part rmay be so construct d that it fits more or less into the labial r buccal recess of one portion of the two part mold, said third mold part being in such shape that its operative surface approa. hes the upper r cervical end of the recesst and gradually x'ecedes from the surface adj acent to the er end or the incisal part of the tooth, so as to leave at this portion of the mold a shallo space of graduall decreasi g thickness fr m the incisal en In operation, -the namel (usually of porcelain material of 'ghter shade) is introduced in a plastic sta into the recess of the labial or buccal port on of the mold space and in" greater quanti y toward the incisal end thereof, and tlier upon the third mold part is introduced and f rced under pressure in close contact, so thht it shall provide a displacing action w 'ch squeezes out all of the XCBSS of the plastic porcelain material and causing that which remains in the cavity orlspace between the mold parts to be compressed into the proper shape, for the incisal portion of the too h H and extending upwardly alongthe labial or buccal vsurface with a gradually decreasing thickness, and more or less {entirely omitted as desired from the median portion or there abouts to the cervical end. In this manneri the quantity and shaping of the enamel ori porcelain material is accurately assured,\ and adapted to provide the labial or buccal covering for the body material. The body material whichalso constitutes the backer lingual portion of the tooth-may bemade of the same general porcelain material with proper coloring oxides to insure the shade desired and so as to make a proper contrast with the material employed for the incisal end and adjacent labial or buccal part of the tooth structure, as above stated; and said body material having been previously introduced into the other half of the twopart mold, namely, into the recess thereof which. corresponds to the back or lingual side of the tooth and insufiicient quantity,

that when the two parts of the two-part mold are pressed together, the body material of one part will be caused to fill all of the mold space between the two parts which is not to be occupied by the lighter colored porcelain material already in position.

The bisque tooth, when being molded, in

the foregoing manner, will involve two definite and positive molding operations, one to first mold a quantity and shape of porcelain material of one shade-for making one-portion of the final tooth, and the other todefinitely mold the quantity and shape of porcelain material of another shade to complete the shape of the tooth, thereby insuring definite relative shapes and proportions of the light and dark shade porcelain materials, whereby the teeth made in the same mold structures will always be the same in appearanceand shade e tlect so long as the definite relative positions and proportions of the two materials are maintained.

My. improved process in its broader scope may be briefly stated as consisting of a method for making artificial teeth which consists in first molding a portion of the tobth structure fromporcelain material between hard surfaces to insure compression and definite shape and. thereafter molding between a hard surface on the one part and the surface of the first, molded material on the other part the balance of the porcelain material equired to constitute the complett tooth strdcture, and finally subjecting the composite molded structure to heat to vitrify the two molded parts into a unitary porcelain tooth structure.

My invention will be better'understood by 1 reference to the drawings, in which:

Fig. 1 is plan view of a two-part mold with a porti dn broken away and adapted for use in carrying onmy improved .'process; Fig. 2 is a transverse section of the same on line 2-2; Figs. 3 and 3 are transverse sec:

tions ofmold parts to be respectively useo.

in the process alternately with one or the other of the parts of the two-part mold shown in Figs. 1 and.2;. Figs. 4 and .4 illustrate, on a large scale, the employment of material; Figs. 5 and 5 areenlarged views of portions of .the respective mold parts of Fig. 2 with porcelain material applied thereto; Fig. 6 is a longitudinal sectional View of an artificial tooth made by myimproved method and mold by way of example of a product produced thereby; Fig. 7 is a transverse section of the same on line 7-7 of Fig. 6; Fig. 8 is a perspective view of a strip of pliable porcelain material compound adapt-' ed for use in connection with the dies shown in Figs. 4 or 4; Fig. -9 is'a sectional view of the mold part shown in Fig. 5, with detachable portions which, when applied, give the molding surfaces the characteristics of the mold partshown in Fig. 3 and upper portion of Fig. 4; Fig. 10 is a perspective view of the removable mold art shown in Fig. 9; and Fig. 11 is a'modification of the mold part shown in Fig. 9. I

2 and 3 are mold parts of an ordinary Y two-part mold, such as employed in the manufacture of artificial teeth. In general, the part 2 is provided with a plurality of depressions 4 which correspond to the lingual or back portion of the tooth to be molded; and the mold part3 is similarly provided with a plurality of depressions 8 which correspond to and are adapted to mold the labial or buccal ortions of the artificial teeth. These mol parts 2 and 3 usually are formed for molding several teeth at one time, but'this is immaterial so far as the nature of my invention is concerned. The two mold parts 2 and 3 are accurately coupled by pins 6 and sockets or holes 7, so that when they are placed together the recesses 4 and 8 are opposed to form the tooth space and the marginal edges cooperate to clearly define the boundaries of the tooth. To prevent injury to the bounding edges of the molding portions, fiat surfaces 5 are provided at each end which limit the pressure of the contacting edges about the mold recesses. In the ordinary use of a mold of this character, the light shade porcelain material in a plastic state is introduced by hand into the recess 8 of the mold part 3 and more particularly toward the incisal end thereof, and similarly, the darker colored porcelain body material, also in a paste'condition, is introduced by hand into the recess 4 of the mold part 2, and in this latter case, with the greater portion thereof adjacent to the back and cervical end of the toothspace. When the mold parts are then placed together, the plastic porcelain material 11 of the two mold parts come into contact and the excess, 1s squeezed out and, inthis manner, the lighter shade 1porcelain material is in a more or less irregu ar manner, as to position and quantity, found in the bis'cuited tooth at the frontal and incisal .end. The shade produced by the blending .of the light and dark porcelain materials isfmore' or less irregular overcome in the practice of my method and with the use of my modified mold parts. As before stated, the third mold part to 'be employed with one or the other of the ordinary or usual parts of the two-part mold to perform the first molding step, may be shaped to conform with the requirements of either part 2 or 3 of the mold structure .Fig. 2. If the third mold part is to conform to and cooperate with part 3 for such preliminary molding, then Figs. 3, 4, and 5 of the drawings will apply; but if it is to conform to and cooperate with mold part2 for such preliminary molding, then Figs. 3*, 4 and 5 of the drawings willapply. Considering the first of these cases: In addition to the ordinary mold parts shown in Figs. 1 and 2, I provide an additional mold part 12, a temporary substitute for mold part 2, but hav-' ing its cooperating surface provided with ralsed portions 13 in place of the depressed portions 4 (Fig. 3) but otherwise, the general form of the mold part 12 corresponds to the part 2 in that it is provided with flat surfaces 5, a pin 6 at one end, and a corresponding hole 7 at the other end, and

moreover, with portions surrounding the raised parts 13 which provide a juncture with the bounding edges of the recesses 8,

.material vwould be molded between these parts. The projection v13 is, however, re-

duced in size toward the incisal end, as at 14,

soa's to leave a tapering space between said surface 14 and the surface at the incisal end of the recess 8 in which the light colored or enamel material 16 is molded. Furthermore, at the incisal end of the mold art 13, there is-a depression 17 which not on y gives the depth to the mold space, but insures a proper thickness of the light shade porcelain or enamel material at the extreme incisal end of the tooth which is finally molded. By introducing-the enamel material in a sufliciently plastic state and subjecting the mold parts 3 and 12 to suflicient pressure, accurate shaping of the enamel material to the mold 1n definite quantity,

mains, and the thickness of this material will be positively assured and repeated in each tooth molded. While the enamel material 16 may be inserted by hand operation, it may, however, be introduced in any other Way, and by way of illustration, reference is made to Fig. 8 in which a very thin tapered strip 24 of the material may be made as a preliminary operation and rolled into lozenge-like portions by transverse cuts 27, giving to each piece a thick end 25 and a thin end 26 of wedge-like character, said wedge-like pieces being laid in the tnoth spaces 8 adjacent to the incisal end before the application of pressure by the mold part- 12. This wedge shaped piece, in practice, would be of quite pliable nature, but being of approximately the right thickness, the amount of displacement by the action of the molding parts 3 and 12 may be reduced to a mmnnum.

After the lighter shade or enamel material 16 is molded in the recess 8 of the mold part 3, it may be dried by heating the mold parts before separation. The mold part 12 is then removed and the mold part 3 with the enamel portion 16 is then ready for receiving the back or body porcelain material, usually of darker shade. This body material is indicated at 11,'in Fig. 5 and is introduced into the recess 4 of the mold part 2 by hand or in any other suitable Way, being preferably in somewhat greater quantity toward the cervical end than the incisal end.'

During this operation, the said body ma terial may be molded about one ,or more anchors 10 carried upon posts 9, in the usual.

way,- for the purpose of providing the tooth with embedded anchors and holes leading thereto when it is desired to provide the finished tooth with pins soldered in position. This particular provision of anchors is no part of my present invention and it will be understood that instead of employing anchors for soldered pin-.3, the pins may be directly molded in the porcelain material without the usual separate anchors, just as if the post 9 and an hor 10 were integral and constituted the pin in the finished tooth. It will also be understood that the tooth may be devoid of anchors or pins and have depressions or holes of various shapes. alone molded in them. When the mold part 2 has been provided with the necessary quantity of body material, it is placed in operative position upon the mold part 3, as in Fig. '2, and upon proper pressure being applied, the body material 11 will fill all of the tooth space between the mold parts 2 and 3 that is not already filled with the enamel material 16, the excess of the body 1naterial being squeezed out from between the mold parts in the usual way. When the materials are thus molded, the same is baked by heating the mold while the two parts are clamped together, and finally the biscuited tooth is removed from the mold and is in the form shown in Figs. 6 and ,7. In these figures, it will be seen that the incisal'end 16 has the light enamel material extending-upward upon the lingual side as well as the labial side to give the more or less transparency required. The body 11 of the tooth is usually composed of the darker material and this extends to or nearly to the labial or frontal surface adjacent to the cervical end to the diminishment of all other lighter shade material 16, inasmuch as the lighter shade material tapers oil and in some teeth may terminate at or near the median labial or frontal portion of the tooth. It

will be seen also that the anchor elements 10 are embedded in the body material and holes 9- for the introduction of the pin provided. The biscuited tooth is now in condition for being vitrified and it is subjected to the requisite temperature for converting the mamore particularly to show the relative ar rangements of the light and dark shade materials in the molded tooth before vitrification, and to which my invention more particularly is directed.

Considering now the case wherein the first molding step is in forming the body or 11ngual part of the tooth and involving use 0 the mold parts shown in Figs. 3 a and 5 The operation ormethod in this case is in general the same as that above described connection with the mold parts shown 1n Figs. 3, 4 and 5 and, therefore, much that has been stated will not have to be repeated here. Mold part 12 has its molding surfaces mostly recessed instead of being raised above the parting plane, but this recessed portion 14 is of less depth than in mold part 3, and at the incisal end the boundaries of the recessed portion project above-the parting plane as at 17? so as to extend into the recess 4 of the mold part 2, all as shown in Fig. 4. This produces in the final tooth, the same result as the provision of the part 17 in the mold part 12. \Vhen the parts 12 and 2 are placed together, as in Fig. 4, a mold space for the body material 11 of large size is provided, instead of a small size space 16 for the enamel material, as in Fig. 4, and hence the body material thus molded will retain its shape and position when given the preliminary drying. It will be seen from Fig. 4 that no frail or delicate porprecisely the same as in the use of the mold parts Figs. 3, 4 'and'5, first described, but the care re uired in carrying out the method is less and ence the use of said parts Figs. 3, 4 and 5 are preferable. It will be understood that after the body material is properly molded in mold part 2 by use of mold part 12 (Fig. 4*) and dried, the latter mold artis-removed and mold part 2 with the biscuited body portion 11 is employed with mold part 3 after it has re-- ceived the requisite enamel material 16, as indicated in. Fig. 5, and by compression and drying, the complete biscuited tooth, Figs. 6 and 7, is produced. It will be observed that in this procedure the enamel material 16 is so molded that it extends'to the approximal surfaces of the tooth as shown at 16 (Fig. 7). The biscuited tooth is finally vitrified as before described.

As a convenience in making the molds adapted for molding the enamel material 16, as shown in Fig. 4, the mold part 12 may have its projecting portions 13 formed on' separate blocks 20, as indicated at 13 (Fig. 11). If so desired, these blocks may then be positioned upon the mold part 3, and finally a mold part body 12 having holes 22 therein may beplaced over and upon the blocks 20 and attached thereto by introducing solder or other metal 23 into the holes 22 and about projecting pins 21 extending upwardly into the holes from the blocks 20.

In this manner, the mold structure 12 may be built up with less expense than where all of the different projecting portions 13 are required to accuratelyfit the depressions 8 ofthe mold part 3. In following the construction illustrated in Fig. 11, it is manifest that any variation in shrinkage would in no'way interfere with the, proper positioning of the blocks 20 and projecting mold surfaces 13" in respect to the recesses of the mold part 3, because all parts would be in proper final position before the solder or binding metal 13 was applied. It will also be understood that instead of making a separate or third mold part 12, to be used with the mold part 3 as a substitute for the mold part 2 during the preliminary operation of molding the light shade or enamel material, the mold part 2 may be utilized for both the preliminary and final molding operation by providing its depression 4 with removable die blocks 13 (Fig. 9 in which the cervi- -oal end 15 approaches the cervical end of the recess 8 and the incisal end 14 corresponds to the surface 14 of the mold part 12 before described. In this'case, the blocks 13 are provided with pins 18 which fit holes 19 in mold part 2 which holes may subsequently receivethe posts 9 for carrying the anchors, I as shown in Fig. 5. In this manner, the blocks 13 may be placed in the mold part 2 when molding the enamel material 16; and thereafter the blocks 13 are removed, the posts and anchors introduced, and the bisque material 11 placed in position, all as indicated in Fig. 5, andthen employed in connection with the mold part 3, which already contains the lighter colored bisque material 15 and the biscuited-tooth formed thereby, as be fore. One of these removable mold blocks. 13 is illustrated in Fig. 10, whenremoved from the mold part 2, and the dotted line 14' thereof is intended to illustrate what "would be the full shape of the biscuited tooth, which would finally'result from the mold parts 2 and'3 when employing such a mold block in the preliminary step. For

the purposes of my invention, in so far as deenamel part 16 of the tooth, the operative surfaces of the part 12 do not differ from the operative surfaces of the construction shown in Fig. 9, and, therefore, ina broad sense, I deem these as equivalents, and the same will also hold true in connection with the modi: fication shown in Fig. 11.

What has been stated with respect to the mold structures of Figs. 9 and 11, in regard to cooperation withthe mold part 3, will equally apply to corresponding structural features when adapted for cooperation with mold part 2 and it will not be necessary to duplicate these Figs. 9, 10 and 11 to further elaborate upon th1s statement, especiall as the particular shapes of the tooth mol recesses are not to be considered as limitations coloring metallic oxides employed in the two parts for providing the desired shades, the said materials being made "into .a plastic condition with a suitable binder which will enable the mineral substancesto retain their molded shape in forming the biscuited teeth.

In this application no claim is made to the tooth structure shown in Figs. 6 and 7, as said figures are included byway of example of an article of manufacture which may be made by my improved molds and method of molding, and the article therein shown will form subject matter of a divisional application. 7

I have described my improved method and means in that particularity which I deem to :be the best exposition of my invention, and that which I prefer in commercial practice, but I do not restrict or confine myself to the minor or secondary details, as such are susceptible of modification which may be resorted to as matters of mechanical skill and without a departure from the spirit of the invention.

Having now described my invention, what I claim as new and desire to secure by Letters Patent is:

1. Theherein described method for making artificial teeth which consists in first molding a portion of the tooth structure from porcelain materialbetween hard surfaces to insure compression and definite shape and thereafter molding between a hard surface on the one part and the surface of the first molded material on the other part the balance of the porcelain material required to constitute-the complete tooth structure and finally subjecting the composite molded structure to heat to vitrify the two molded parts into a unitary porcelain tooth structure.

2. The invention according to claim 1, wherein further, the two molded portions are made from materials of different shades or color which overlap each other to provide a blending of the materials, whereby -the two materials fuse together at their place of contact and the shades or color thereof blend one into the other.

3. The invention according to claim 1, wherein further, the porcelain material first molded is applied in the plastic state and then dried before the molding of the second portion or balance of the porcelain material. 7 4. The invention according to" claim 1, wherein further, the porcelain material first molded is applied in the plastic state and then dried-before the molding of the second portion or balance of the porcelain material, and the second part or balance of the porcelain material is also subjected to a drying operation whereby the whole tooth structure is biscuited prior to the final vitrifying of the same.

5. The method accordin to claim 1, wherein further, the porcelain material first molded is applied in the lastic state and then dried before the molding of the second portion or balance of the porcelain material, and metal anchoring means are embedded in the porcelain material during the molding thereof and priorto the molding of the second molding step.- i

6. The invention according to claim 1, wherein further, metal anchoring means are one shade, whereby embedded in one of the porcelain molded parts during its formation and. whereby and by reason of which it is attached to the other molded partwhen the tooth structure is vitrified.

7. The herein described method of making composite molded objects, which consists in forming the same from separate porcelain materials of respectively different shades or colors by successive molding operations, wherein one molded part is formed from an excess of material of one shade or color as a preliminary operation and shaped with variable-thiclmess by pressure between a plurality of hard cooperating dies, and the excess of material squeezed out and sepa rated, and a second molded part is formed from an excess of the material of another shade or color by being compressed upon the previously molded part and the excess of material squeezed out and separated whereby the second molded part is also shaped with variable thickness, and finally vitrifying the molded object so formed to produce a unitary porcelain structure, wherein the twoshades or colors of the materials are definitely blended one into the other producing a greater variety of shades than provided separately by the materials themselves.

8. The herein described method of making artificial teeth which consistsin first, definitely molding between hard molding surfaces the body and lingual portions including the cervical end of porcelain'materlal of a definite and variable thickness is assured end toward the cervical end of the tooth and insuring positive compression, and thereafter definitely and accurately molding upon and in close contact with the aforesaid body from near the incisal material a further quantity of porcelain material of a difierent shade to constitute the enamel at the labial or buccal portion of the tooth having its greatest thickness at the 1ncisal end and gradually reduced in thickness toward the cervical end, and finally vitrifyingthe tooth thus formed to insure the entire tooth structure becoming a vitrified product with a definite blending of the two shades of porcelain material.

9. The invention accordin to claim 8, wherein the body material 1n its molded form is subjected to a drying operation wh le in custody of the hard molding surfaces,

and wherein also the material constituting the second molded operation is dried before subjecting the biscuited tooth structure to the vitrifying operation. V.

10. Molding devices for use in 'prel1m1- nary molding of artificial teeth, which consists of a mold part having a recess therein shaped to conform to one portion and surface of a tooth, combined with a second mold part having a molding surface to coact with the molding surface'of the first mentioned mold part, said molding surface 'bethe lingual surface of a tooth, combined with A ing nearer to the molding surface of the a second mold part having a contacting sur- -moldmg recess of the saidfirst mentioned face to coast with thefirst mold part, said mold part than is required for the final surface having a molding recessed portion molded tooth structure, and wherein further, provided with a projecting incisal part the molding surface of the second mold part which extends into and fits the incisal surface is relatively nearer to the incisal surface at of the recess of the first mold part and havone end than to the surface'at the other or ing the general molding surface thereof apcervical end and in general curvature ap-' proximating the labial surface. ofthe finproximating the labial surface of the finished tooth but formed to come radually islied tooth to be formed by a final molding closer ,to the lingual surface of the first mold by use of. a third mold part with the first part more rapidly from the cervical end to mentioned mold part. the incisal end'than would be the case with 11. The invention according to claim 10, the labial surface of the finished molded wherein further the mold recess of the first tooth structure to be made by the further mentioned mold part is shaped to conform to use ofthe first mold part with a third mold the lingual side of a tooth and the molding part, said second mold art further conformsurface of the second mold part meets the mg to the bounding edges of the said moldlingual surface at a distance from the incisal ing recess at the incisal end in the first mold end of the mold surface-of the first mold part, whereb the porcelain material to be part and approximates the general shape compressed etween the first and second of the labial surface of a finished tooth but mold parts will constitute a tooth form withapproaching the lingual surface at the inout an incisal end but of a width equal to cisal end more rapidly than in the finished that of the tooth recess and of a length extooth to be completed by a secondary moldtending from a short distance from theining with the use of a third mold part in as cisal end to the cervical end of the said sociation with the first mentioned mold part. tooth recess.

12. Molding devices for use in molding ar- In testimony of which invention, I heretificial teeth which consist of a mold part unto set my hand. having a recess therein shaped to conform to GEORGE WOOD CLAPP. 

